Anti-gastroesophageal reflux valvular prosthesis

Abstract

The anti-gastroesophageal reflux valvular prosthesis comprises a body presenting a seat of substantially semicircular shape, means of engagement with the gastric wall of the stomach connected to the body through means of connection, and means of inflating the body for the variation of this volume to accentuate the angle of His (cardiac incisure) and to improve the natural valvular anti-reflux system.

Description

DESCRIPTION

[0001] The present patent to an anti-gastroesophageal reflux valvular prosthesis. As is known, the term “hiatal hernia” in used to define a dislocation of an abdominal viscus of the thorax via an aperture in the diaphragm, called hiatoesophageal, normally crossed by the esophagus.

[0002] Through this aperture in the diaphragm the esophagus can abnormally reascend the thorax, determining a sliding (or rotation) hernia along with a portion (generally the most proximal) of the stomach (cardia).

[0003] The sliding hernia is generally associated with a reflux pathology, that is, esophagitis.

[0004] When the border between esophagus and stomach shifts within the territory of the thorax, where the pressures are opposite the abdominal pressures (during inspiration, in the thorax there are negative values and positive ones in the abdomen), the acid content of the stomach lingers a little too long in the last tract of the esophagus and tries to digest the mucosa.

[0005] Eleven percent of the population experiences symptomatic gastroesophageal reflux on a daily basis.

[0006] When gastroesophageal reflux is symptomatic, a pathological entity is always present as a consequence of the reflux, for example esophagitis.

[0007] Recent studies suggest that the increase of esophageal cancer in industrial society may be linked precisely to the columnar transformation of the distal esophageal mucosa as a consequence of chronic reflux.

[0008] To avoid at least somewhat the drawbacks complained of above, medical reflux therapy based on pro-kinetic and antacid agents is applied.

[0009] However, when the aforesaid therapy also fails, surgical invention is provided, resulting in such anatomical changes as to allow the possible hiatal hernia to be corrected and the anti-reflux mechanism to be improved.

[0010] Nevertheless, the great disadvantage of surgical invention is that it is very difficult to make the necessary anatomically leads to complications and disorders that are sometimes difficult for the patient to tolerate.

[0011] The task proposed by the present invention is that of eliminating the drawbacks of the known technique complained of above.

[0012] In the scope of this task, one important purpose of the invention is to make an anti-reflux gastroesophageal valvular prosthesis that helps avoid surgical invention that could make anatomical changes and, consequently, surgical over-correction that would lead to complications and disorders that the patient cannot tolerate.

[0013] Another purpose of the invention is to make a valvular prosthesis that it possible to keep the last tract of esophagus in the abdomen by closing the diaphragmatic passage at the same time, surpassing medical reflux therapy and surgical interventions liable to bringing about anatomical changes that the patient cannot tolerate.

[0014] Yet another purpose of the invention is to make a prosthesis that acts in a substantially natural manner, so that the more the stomach dilates proximally due to the presence of food and the more the angulation is automatically accentuated, the more the cardiac esophagus and the stomach-closes.

[0015] Yet another purpose of the invention is to make a prosthesis that also allows coupling with a gastric peacemaker [sic; pacemaker] to stimulate the gastric portion of the sphincteral smooth musculature, for example during nightly rest. Not the last purpose of the invention is to make a prosthesis that can be inserted into the abdomen with a laparoscopic or micro invasive technique and that can be removed without a new surgical intervention.

[0016] This task, as well as these and othe purposes, are archived by an anti-reflux gastroesophageal valvular prosthesis characterized by the fact that it comprises a body presenting, a seat of substantially semicircular shape, meas of engagement with the gastric wall of the stomach connected to said body by means of connection, and means of inflating at least said body for the variation of its volume to accentuate the angle of His and improve the natural anti-reflux valvular system.

[0017] Additional characteristics and advantages of the invention will mainly be revealed from the description of a preferred, but not exclusive, from of execution of the valvular prosthesis according to the invention, illustrated as indicative and non-limiting in the attached designs, in which:

[0018] FIG. 1 is a schematic view of the prosthesis according to the invention;

[0019] FIG. 2 is a schematic view of the application of the prosthesis applied in the abdomen with micro invasive laparoscopic technique according to the invention;

[0020] FIG. 3 and 4 schematically show the functioning of the prosthesis according to the invention.

[0021] With particular reference to the figure described above, the anti-reflux gastroesophageal valvular prosthesis, indicated overall with reference number 1, comprises a body generically indicated with 2 presenting a seat 3 of a substantially semicircular shape.

[0022] Body 2 present a substantially “half-moon” shape, defining a type of collar that can be positioned inside the abdomen, in the zone of passage between esophagus and stomach, that is, in the gastroesophageal joint around the esophagus.

[0023] In particular, the prosthesis in inserted into the abdomen with a micro invasive laparoscopic technique.

[0024] The prosthesis further comprises means of engagement with the gastric wall of the stomach, indicated on the whole with 4, which are connected to body 2 by means of connection and, in particular, small tubes 5.

[0025] The prosthesis further comprises means of inflation capable of inflating at least body 2 to allow its volume to vary so as to accentuate the angle of His, that is, to accentuate the angulation between the esophagus and the stomach supported by the diaphragrnatic cruses and simultaneously to improve the natural anti-reflux valvular system.

[0026] More precisely, means of engagement 4 comprise at least two distal inflatable elements, indicated with 6.

[0027] Small tubes 5 fluid-dynamically connect inflatable distal elements 6 to body 2 and are made of material that is elastically pliable axially, so as to vary their length elastically.

[0028] Means of inflation 7 comprise a container of a fluid 8 for simultaneous inflation of both body 2 and distal elements 6.

[0029] Advantageously, inflatable elements 6 are anchored in the distal antrum, substantially side by side, and at a distance from body 2 substantially equal to the length of small tubes 5.

[0030] Thus, as body 2 and, consequently, distal elements 6 inflate, there is, also thanks to the axially oriented elasticity of small tubes 5, a restriction of the gastroesophageal tract and an improvement of continence with the simultaneous impediment of reflux.

[0031] In other words, the inflation of body 2 pulls the stomach partially herniated into the thorax downward, that is, toward the abdomen.

[0032] Thus the angle of His is accentuated and the natural anti-reflux valvular system is improved.

[0033] Furthermore, when the stomach distends due to the effect of the food accumulated inside it during the gastric phase of digestion, this angling is accentuated as the download stretching of the entire esophageal-gastric joint. At last body 2, but also the small tubes rather than distal elements 6, may present a reinforcement core capable of resisting tractive forces to allow their removal without a new surgical intervention.

[0034] Moreover, the prosthesis described above may be easily coupled to the positioning of a gastric peacemaker and may be useful to stimulate the gastric portion of the sphincteral smooth musculature (inferior esophageal sphincter=perhaps during the patient's reflux timing.

[0035] Moreover, advantageously, body 2 present a median zone 10, or that of greater breadth suitable in shape and size for exerting pressure on the stomach only in the functional sense, mainly when the stomach is full of food, so that the distal elements and body 2 are automatically activated according to the natural functions during the patient's digestive phase.

[0036] Thus problems of decubitus are avoid, since the prosthesis always remains mobile, constricting the esophagus and lowering the stomach only in the functional sense and only when it is useful, that is, when the stomach is full of food that should not reascend into the esophagus.

[0037] The functioning of the prosthesis according to the invention appears evident from what has just been described and illustrated.

[0038] In practice it has been confirmed that the prosthesis forming the object of the invention is particularly advantageous for compensating remarkably both for the defects and inadequacies of medical reflux therapy based on pro-kinetic and antacid agents, and for the problems and drawbacks determined by surgical intervention that, in most cases, lead to anatomical changes with consequent complications and disturbances that the patient cannot tolerate.

[0039] Substantially, after suitable inflation, the prosthesis adjusts automatically and present an automatic reaction to the difficulties caused by esophagitis, in that the more the stomach dilates proximally due to the presence of food and the more the angulation is accentuated, the more the cardiac esophagus-that is, passageway between the esophagus and stomach-closes.

[0040] The invention thus conceived is susceptible to numerous modifications and variations, all falling within the scope of the inventive concept, and furthermore, all details can be substituted by technically equivalent elements. In practice any materials and dimensions may be used, depending on the demands and on the state of the art.

Claims

1. Anti-gastroesophageal reflux valvular prosthesis characterized by the fact that it comprises a body presenting a sear of substantially semicircular shape, means of engagement with the gastric wall of the stomach connected to said body by means of connection, and means of inflating at least said body for variation of its volume to accentuate the angle of His and improve the natural valvular anti-reflux system.

2. Anti-gastroesophageal reflux valvular prosthesis according to claim 1, characterized by the fact that said means of engagement comprise at least two distal inflatable elements.

3. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said means of connection comprise small tubes to connect said inflatable elements fluid-dynamically with said body.

4. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said small tubes are made of material that is axially elastically pliable.

5. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said means of inflation comprise a container of a fluid for the simultaneous inflation of said distal elements.

6. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said inflatable elements are anchored in the distal antrum, substantially side by side, and at a distance from said principal body substantially equal to the length of said small tubes so that, during the inflation of said body, there is, also thanks to the elasticity of said small tubes, a restriction and an angling of the gastroesophageal tract, improving continence and impeding reflux.

7. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that at least said principal body comprises a reinforcement core capable of resisting tractive forces.

8. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said body and said distal elements can be removed without surgical intervention.

9. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said body and said distal elements are capable of working together with a gastric peacemaker [sic; pacemaker] for the stimulation of the smooth musculature of the inferior esophageal sphincter, just for the gastric portion.

10. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said body present a median zone suitable for exerting pressure on the stomach only in the functional sense, mainly when the stomach is full of food.

11. Anti-gastroesophageal reflux valvular prosthesis according to one or more of the preceding claims, characterized by the fact that said body and said distal elements are activated especially during the digestive phase.